Electrophysiological Basis and Genetics of Brugada Syndrome

Brugada syndrome is a primary arrhythmic syndrome arising in the structurally normal heart. Any proposed mechanism should account for the major features of the syndrome: localization of the ST segment and T‐wave changes to the right precordial leads, association of conduction slowing at several leve...

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Published in:Journal of cardiovascular electrophysiology 2005-09, Vol.16 (s1), p.S3-S7
Main Author: GRANT, AUGUSTUS O.
Format: Article
Language:English
Subjects:
Brugada syndrome
Bundle-Branch Block - diagnosis
Bundle-Branch Block - epidemiology
Bundle-Branch Block - genetics
Bundle-Branch Block - physiopathology
Electrocardiography - methods
Genetic Predisposition to Disease - genetics
Heart Conduction System - physiopathology
Humans
Ion Channel Gating - genetics
Muscle Proteins - genetics
NAV1.5 Voltage-Gated Sodium Channel
Polymorphism, Genetic
sodium channel
Sodium Channels - genetics
sudden death
Syndrome
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description Brugada syndrome is a primary arrhythmic syndrome arising in the structurally normal heart. Any proposed mechanism should account for the major features of the syndrome: localization of the ST segment and T‐wave changes to the right precordial leads, association of conduction slowing at several levels, precipitation or aggravation of the major ECG changes by sodium channel‐blocking drugs and the occurrence of ventricular fibrillation. Heterogeneity of repolarization across the ventricle wall plays a major role. Any agency that shifts the net current gradient during phase I outward would exaggerate the normal heterogeneity of repolarization and result in the ST segment and T‐wave changes characteristic of the syndrome. When the outward current shift is marked, premature repolarization may occur in epicardial zone and the resulting gradient may precipitate reentry. The syndrome is inherited as an autosomal dominant. However, 75% of clinically affected individuals are males. In 20% of cases, the syndrome is associated with mutations of the cardiac sodium channel gene SCN5A. The mutations result in a loss‐of‐function as a result of the synthesis of a non‐functional protein, altered protein trafficking, or change in gating. Agencies that reduce the sodium current may precipitate the characteristic ECG changes, for example, sodium channel blockers and membrane depolarization by hyperkalemia. Sympathetic stimulation may reverse the ECG changes and reduce arrhythmia recurrence. By its nonspecific potassium channel blocking action, quinidine may also reduce arrhythmia recurrence. We still do not know the basis for defect in the majority of patients with Brugada syndrome.
doi_str_mv 10.1111/j.1540-8167.2005.50104.x
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Any proposed mechanism should account for the major features of the syndrome: localization of the ST segment and T‐wave changes to the right precordial leads, association of conduction slowing at several levels, precipitation or aggravation of the major ECG changes by sodium channel‐blocking drugs and the occurrence of ventricular fibrillation. Heterogeneity of repolarization across the ventricle wall plays a major role. Any agency that shifts the net current gradient during phase I outward would exaggerate the normal heterogeneity of repolarization and result in the ST segment and T‐wave changes characteristic of the syndrome. When the outward current shift is marked, premature repolarization may occur in epicardial zone and the resulting gradient may precipitate reentry. The syndrome is inherited as an autosomal dominant. However, 75% of clinically affected individuals are males. In 20% of cases, the syndrome is associated with mutations of the cardiac sodium channel gene SCN5A. 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subjects Brugada syndrome
Bundle-Branch Block - diagnosis
Bundle-Branch Block - epidemiology
Bundle-Branch Block - genetics
Bundle-Branch Block - physiopathology
Electrocardiography - methods
Genetic Predisposition to Disease - genetics
Heart Conduction System - physiopathology
Humans
Ion Channel Gating - genetics
Muscle Proteins - genetics
NAV1.5 Voltage-Gated Sodium Channel
Polymorphism, Genetic
sodium channel
Sodium Channels - genetics
sudden death
Syndrome
title Electrophysiological Basis and Genetics of Brugada Syndrome
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